Abstract: A plurality of N-doped strip portions are formed alternating with a plurality of P-doped regions. When a voltage is applied to the N-doped strip portions, a capacitance is created between the N-doped strip portions and the P-doped strip portions. A capacitance is also created between the N-doped strip portions and the underlying epitaxial silicon layer. A larger interface area between N-doped and P-doped regions generally increases the capacitance. By providing the N-doped strip portions, as opposed to a continuous N-doped region, the combined interface area between the N-doped strip portions and the underlying epitaxial silicon layer is reduced. However, more interface area is provided between the N-doped strip portions and the P-doped strip portions. A circuit simulation indicates that junction capacitance per unit peripheral length is 0.41 fF/?m, while the junction capacitance per unit area is 0.19 fF/?m^2.

Abstract: Leakage current may be reduced in trench isolated semiconductor devices by providing a buffer between the trench isolation and an active area. For example, with a trench isolated photodiode, a buffer of opposite conductivity type may be provided between the trench and the diffusion that forms the p-n junction of the photodiode.

Abstract: Leakage current may be reduced in trench isolated semiconductor devices by providing a buffer between the trench isolation and an active area For example, with a trench isolated photodiode, a buffer of opposite conductivity type may be provided between the trench and the diffusion that forms the p-n junction of the photodiode.

Abstract: An embodiment of the invention is directed to a semiconductor photodiode made of a number of gate islands being spaced from each other and electrically insulated from each other by spacers. The spacers are formed above a p-n junction of the photodiode. The incident light is detected after it passes through the spacers and into a photosensitive region of the photodiode. The photodiode can be built using conventional metal oxide semiconductor (MOS) processes of the polysilicon-silicided gate or self-aligned types that use a lower doped drain (LDD) structure, without requiring an additional mask step that prevents the formation of the opaque silicide above the photosensitive semiconductor regions.

Abstract: Leakage current may be reduced in trench isolated semiconductor devices by providing a buffer between the trench isolation and an active area. For example, with a trench isolated photodiode, a buffer of opposite conductivity type may be provided between the trench and the diffusion that forms the p-n junction of the photodiode.

Abstract: Leakage current may be reduced in trench isolated semiconductor devices by providing a buffer between the trench isolation and an active area For example, with a trench isolated photodiode, a buffer of opposite conductivity type may be provided between the trench and the diffusion that forms the p-n junction of the photodiode.

Abstract: Leakage current may be reduced in trench isolated semiconductor devices by providing a buffer between the trench isolation and an active area. For example, with a trench isolated photodiode, a buffer of opposite conductivity type may be provided between the trench and the diffusion that forms the p-n junction of the photodiode.

Abstract: Leakage current may be reduced in trench isolated semiconductor devices by providing a buffer between the trench isolation and an active area. For example, with a trench isolated photodiode, a buffer of opposite conductivity type may be provided between the trench and the diffusion that forms the p-n junction of the photodiode.

Abstract: The present invention is an image sensor and its fabricating method. The image sensor comprises a photodiode and a dielectric structure. The photodiode is responsive to an amount of incident light from a light source. The dielectric structure is on top of the photodiode and is placed between the photodiode and an inter-level dielectric (ILD) oxide layer. The dielectric structure contains a dielectric material. The ILD oxide layer is made of an oxide material and has an ILD oxide thickness.

Abstract: An embodiment of the invention is directed to a semiconductor photodiode made of a number of gate islands being spaced from each other and electrically insulated from each other by spacers. The spacers are formed above a p-n junction of the photodiode. The incident light is detected after it passes through the spacers and into a photosensitive region of the photodiode. The photodiode can be built using conventional metal oxide semiconductor (MOS) processes of the polysilicon-silicided gate or self-aligned types that use a lower doped drain (LDD) structure, without requiring an additional mask step that prevents the formation of the opaque silicide above the photosensitive semiconductor regions.